energy savings using variable speed drives
TRANSCRIPT
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Energy Savings Using Variable Speed Drives
Robin Priestley Rockwell Automation
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Energy Savings Dollars And Sense
A dollar not spent on energy is a dollar of NET PROFIT: • A company generating 5% return on net assets (RONA)
has to sell $_____ in products to generate $50,000 in profit? $1,000,000.00
• If your solution saves $10,000.00 in energy costs, how much is that really worth? $200,000.00 in top line revenue $ savings x 1/(RONA % provided by management)
• Energy costs are rising. • Motors are the largest consumers of energy in North
America.
U.S. Department of Energy
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Basic Electrical Costs
• Demand • Power factor • Kilowatt hours consumed
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Demand Charge – Hard To Justify
Demand charge – 15 minute average peak usage • Staggered starts • Soft starts • Variable speed drives
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Power Factor – Easier To Justify
Power factor – charge or credits (depending on the power factor)
• Decreases efficiency if power factor is below 85%
• May be credited if power factor is above 95%
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Power Factor As A Cost
Your ‘Apparent’ Consumption
(i.e. required generation capacity)
Real Work – Billed kWh Power Factor
Lagging PF
+20%
+10%
Standard
-10%
-25%
Unity PF
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Power Factor As A Cost
Power Factor
Lagging PF
- 20%
- 10%
Standard
+10%
+25%
Unity PF
Your ‘Apparent’ Consumption
(i.e. required generation capacity)
Real Work – Billed kWh
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Power Factor As A Cost
Power Factor
Lagging PF
+20%
+10%
Standard
-10%
-25%
Unity PF
Your ‘Apparent’ Consumption
(i.e. required generation capacity)
Real Work – Billed kWh
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Variable Speed Drives
Electrically located at motor – looks like a power factor correction capacitor to distribution system
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Capacitor Location?
Utility
Distribution
Infrastructure Metering
Service
Entrance
MCC
Capacitor
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Reducing True Consumption Benefits
Reducing consumed kW • Provides quickest paybacks • Easiest to justify • Tools eliminate guess work
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VSD – Big Payoff
Exponential reduction in consumed kW: • Variable torque – fans, pumps • Variable load characteristics – systems that cycle,
i.e. injection molders • Throttled loads – restricted flows, i.e. dampers,
control valves, recirculation
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Affinity Laws
Flow (Q) Changes
Linearly with Speed (N)
Pressure (P) is Proportional to the
Square of Speed (N) or Flow (Q)
Power (HP) is Proportional to the
Cube of Speed (N) or Flow (Q)
Q
Q
N
N
P
P
N
N
HP
HP
N
N
2
1
2
1
2
1
2
1
2
2
1
2
1
3
= =
=
Q
Q
N
N
P
P
N
N
HP
HP
N
N
2
1
2
1
2
1
2
1
2
2
1
2
1
3
= =
=
Affinity laws apply to all centrifugal devices.
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Energy
Consumed
Speed
Affinity Law In Action
Variable torque ‘ideal’ loads:
• Energy increases exponentially with speed
• Energy consumed = (speed)3
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Energy
Consumed
Speed
Insignificant Speed
Reduction
Affinity Law In Action (continued)
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Energy
Consumed
Speed
Insignificant Speed
Reduction
Large Reduction In Consumed Energy
Affinity Law In Action (continued)
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Energy
Consumed
Speed
Reasonable Speed
Reduction
Affinity Law In Action (continued)
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Energy
Consumed
Speed
Affinity Law In Action (continued)
Reasonable Speed
Reduction
FANTASTIC Opportunity
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Motor Example
Consumption reduction= (Speed reduction )3
100 kW motor @ 50% speed – what does it cost?
Er=(1/2)3
12.5 kW
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Pump Example
100 HP motor @ 85% speed – how much HP are you using?
HPused= (Motor HP) x (% Speed)3
HPused= (100 HP) x (.85)3
61 HP
Pumps may have limited speed ranges due to system constraints.
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Fan Example
% Speed = Operating speed/full speed = 45 Hz/60 Hz = 75
HPrequired= (Motor HP) x (% Speed)3
HPrequired= (100 HP) x (.75)3
42 HP
What if a fan worked at 45 Hz?
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Financial Justification
• Need basic data to calculate savings – multiple tools available
• Value exceeds kWh cost – what is this worth to top line revenue?
• Does system performance justifies VSD regardless of savings?
o Example – water authority pumping just 4 hours/day – fire main pressure, no broken mains, better aquifer management
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Energy Saving Calculation Example
Assuming fan does not have to run constantly at full speed: • 20% time at 100% speed • 60% at 80% speed • 20% at 60% speed
Cost of running fan with a variable speed drive: 25 HP x 0.746 kW/hp x 1248 hrs x 0.075/kWh x (1.00)3 = $1,746 25 HP x 0.746 kW/hp x 3744 hrs x 0.075/kWh x (0.80)3 = $2,681 25 HP x 0.746 kW/hp x 1248 hrs x 0.075/kWh x (0.60)3 = $377
Total = $4,804 Potential annual savings = $8,728 – $4,804 = $3,924
• 25 HP fan moves air three shifts/day, 5 days/week, for a year. • Cost of fan running at full speed entire year:
25HP x 0.746 kW/HP x 6240 hrs x 0.075 kWh = $8,728.00
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ROI Calculators And Engineering Aids
• Projects typically authorized based on return on investment.
• Project viability determined by facts rather than feelings.
• Focus on hard costs. • Eliminate subjective content. • Your goal is to build a bullet proof justification that
stands on its own!
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Fastest Payback?
Common traits • Long hours of operation • Load isn’t constant • Load may be throttled • Significant downtime cost
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Design Parameters – Constant Volume System
Space temp
100°F
68°F 0%
100%
Outside air temp
72°F
47°F
{
Economizer
0%
100%
% H
eatin
g
% C
oolin
g
70°F
Fan speed on 100%
Fan
spee
d %
Fan
spee
d H
z
0% 0Hz
100% 60Hz
-20°F
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Constant Volume System With VSD
Space temp
100°F
68°F 0%
100%
Outside air temp
72°F
47°F
{
Economizer
0%
100%
% H
eatin
g
% C
oolin
g
70°F
Fan
spee
d %
Fan
spee
d H
z
0% 0Hz
100% 60Hz
-20°F
Fan speed varies based on CO2 and building controls demands
33% 20Hz Minimum fan speed
Fan speed – economizer running
76°F (RTU3-3)
54% (RTU 3-3)
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Focus on Energy VSD Incentives
• Standard incentives o $60/ horsepower up to 30% of invoiced cost
• Custom incentives o 1.5 to 4 year energy payback
• Contact your Energy Advisor or call 800.762.7077
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Resources
1. http://www.ab.com/drives/energy_savings/index.html 2. http://www.angelfire.com/pa/baconbacon/page2.html 3. http://www.pupman.com/listarchives/2001/June/msg00679.html 4. http://www.energysafe.com.au/products.html 5. http://www.iserv.net/~alexx/lib/general.htm 6. http://www.myronzuckerinc.com/docs/Specification%20-
%20Trap%20Filter.pdf 7. http://www.transcoil.com/ 8. http://www.trane.com/ 9. http://www.et-sales.com/K_Factor.html 10. http://www.ab.com/drives/energy_savings/index.html
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Thank You!
For additional information or questions: Robin Priestley
Power Control Manager [email protected]
563-445-6323